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SYLLABUS
Course Title CHEMISTRY-IV
Course Code BSC401
Course Credit
Lecture : 04
Tutorial : 03
Practical : 00
Total : 07
Detailed Syllabus:
Sr.
No Name of chapter & Details
Session
Allotted
SECTION-I
1
Molecular Orbital Theory:
Concept of Molecular Orbital Theory, Characteristic of Molecular Orbital, Wave
function of H2+& H2, Potential energy and Schrodinger’s equation for H2
+& H2,
Derivation of normalized wave function of H2+ based on M.O.T.
Hybridization; Derivation co efficient of wave function of sp, sp2& sp3
Hybridization.
08
2
Organic Metallic Compounds:
Introduction, Classification based on nature of M-C Bond, Preparation,
Properties and uses of Organo Lithium compounds, Preparation of Organo
Beryllium, OrganoAluminium and Zeise Salts, Structure of Tri Methyl
aluminium (Dimer), Zeise Salt [PtCl2-C2H4], Ferrocene.
07
3
Hetrocyclic Compounds:
Structure and Aromaticity of Furan, Thiophene and pyrrole, Preparation of Furan,
Thiophene and pyrrole, Chemical Properties of Furan, Thiophene and pyrrole:
Nitration, Sulphonation, Acetylation and Chlorination, Reaction with
OrganometallicCompounds, Structure and Aromaticity of Pyridine, Basicity of
Pyridine, Relative basicity of Pyridine, Pyrrole and Aliphatic amines, Preparation
of Pyridine from acetylene, Hantzsch’s method, Chemical Properties of Pyridine:
Electrophilic Substitution Reactions, Nucleophilic Substitution Reactions.
07
4
Active Methylene Compounds
Definition, Keto-enolTautomerism in Ethyl acetoacetate, Proof for structure of
Ethyl acetoacetate [Frankland – DuppaStucture&Geuther Structure], Proof for
structure of Ethyl acetoacetate [Claisen Condensation with reaction mechanism],
Physical Properties of Ethyl acetoacetate, Chemical Properties of Ethyl
acetoacetate, Synthesis from Ethyl acetoacetate: Monocarboxylic acid : Butric
acid and Valeric acid, Ketone : 2-Pentanone and 3-Methyl- 2-pentanone, , –
unsaturated acid: Crotonic acid, Dicarboxylic acid : Adipic acid, Diketone :
Acetyl acetone and Acetonyl acetone, Keto acid : Levulenic acid
HetrocyclicCompounds : 4- methyl uracil and 2,5-dimethyl pyrrole].
06
SECTION-II
5
Chemical kinetics:
Introduction, Order and molecularity of a reaction, Zero order reaction, First
order reaction & it’s characteristics, Second order reaction & it’s characteristics,
Third order reaction & it’s characteristics, Pseudo unimolecular reaction, Method
for determining the order of reaction: Graphical method, Ostwald’s isolation
method, Method of half-life period, Integration method, Theories of reaction
rates: Collision theory, The transition state theory, Influence of temperature on
reaction rates, Energy of activation, Examples.
07
6
The colloidal state:
Introduction, Classification of colloidal solutions, Characteristics of hydrophilic
and hydrophobic sols, Preparation of colloidal solution : Lyophilic & Lyophobic
solution, Preparation methods: Condensation methods such as by Double
decomposition, Hydrolysis, Reduction, Oxidation, Exchange of solvent,
controlled condensation, change of physical state in short; Dispersion methods
such as Bredig’s method, by Grinding, Peptization in short, Purification of
colloidal solution : Dialysis, Ultrafiltration, Ultra centrifuging; Properties of
colloidal solutions: Optical properties such as Tyndall effect, Brownian effect,
Color, Electrical properties such as Electrical Charge, Electrical double layer &
Zeta potential, Cataphoresis, Electro-osmosis: The Protective colloid (gold
number), Application of colloidal state in short.
07
7
Ceramics and Refectories:
Introduction to Ceramics, Raw materials, Classification based on reduction in
Porosity, Manufacturing, Body Preparation using clay slip, Introduction to
Refractories, Classification of Refractories1. Ceramics and Refectories,
Introduction to Ceramics, Raw materials, Classification based on reduction in
Porosity, Manufacturing, Body Preparation using clay slip, Introduction to
Refractories, Classification of Refractories, Properties of Refractories,
Manufacturing, Fire Clay Bricks, manufacture, Properties and uses.
07
8
Synthetic Polymers:
Introduction, Classification of Polymers, Classification of Polymers when based
upon Intermolecular interaction, Classification of Polymers based upon Structure,
Type of Polymerization reaction, Addition Polymerization, Free Radical
Polymerization, Ionic Polymerization, Ziegler- Natta Polymerization, Stereo
Chemistry of Polymer Plastic, Types of Plastics, Thermo Plastic. Thermosetting
Plastic.
07
List of Practical (6 Hour/Week)
1. Inorganic Qualitative Analysis:
[Minimum ten Inorganic mixtures should be given]
Qualitative Analysis of an inorganic mixture containing four radicals,
excluding PO4-3, CrO4
-2, Cr2O7-2, AsO3
-3, AsO4-3, BO3
-3 and S-2
2. Physicochemical Exercise
To determine the specific reaction rate of the hydrolysis of methyl acetate / Ethyl acetate
catalyzed by H+ ion at room temperature.
To study the rate of reaction between K2S2O8 and KI.
To study the rate of reaction between KBrO3 and KI.
To determine the relative strength of HCl and H2SO4.
To determine the temperature coefficient and Energy of activation for the hydrolysis of
ester at two different temperatures.
To determine the temperature coefficient and Energy of activation for the reaction
between K2S2O8 and KI at two different temperatures
To determine the rate of adsorption of the given organic acid using animal charcoal.
Distribution Law: To study the partition co-efficient of benzoic acid between water and
benzene / kerosene and hence study the molecular condition of benzoic acid in the
solution.
Instructional Method and Pedagogy:
Lectures will be conducted with the aid of multi-media projector, black board, OHP etc.
Assignments based on course content will be given to the students at the end of each
unit/topic and will be evaluated at regular interval.
Surprise tests/Quizzes/Tutorials will be conducted. Assignments based on course content will
be given to the students at the end of each unit/topic and will be evaluated at regular interval.
Surprise tests/Quizzes/Tutorials will be conducted.
Students Learning Outcomes:
After Successful completion of the above course, students will be able to:
Understand the theory and application of organometallic compounds.
Understand MOT of various compounds.
Identify and understand fundamental chemistry of heterocycles and active methylene
compounds.
Calculate chemical kinetics for different reactions.
Understand fundamentals of colloidal state.
Understand industrial application and preparations of Synthetic Polymers, Ceramics and
Refectories.
Reference Books:
1. Concise Inorganic Chemistry by J.D.Lee, wileyindia, 5th edition 2013
2. Textbook of Inorganic Chemistry by Soni P.L., Sultan Chand & Sons. 20th edition 2013
3. Advanced Inorganic Chemistry (3rd Edition) - FA.Cotton and G. Wikinson, Wiley Eastern
Pvt.Ltd 6th edition, 2009
4. Advanced Inorganic Chemistry (Volume II) by Prakash Satya, S.Chand& Company Ltd.
New Delhi, 2006
5. Organic Spectroscopy by B. K. Sharma
6. Organic reaction mechanisms by V.K. Ahluwaliya, Narosa publishing house 4th edition.
2011
7. Advanced Organic Chemistry by ArunBahl and B.S.Bahl, S.Chand& Company Ltd. New
Delhi, 18th edition 2010.
8. Organic Chemistry by Morrison and Boyd, Pearson Education Delhi 7h edition 2011
9. Solomons&Fryhle`s Organic Chemistry by Solomon Graham T.W. andFryhle Craig B.,
Wiley India (P) Ltd. New Delhi. 10th edition.
10. Organic Chemistry Volume -2, I. L. Finar, Pearson publications, New Delhi 2007. 3rd
edition.
11. A Textbook of Physical Chemistry by P.L.Soni,S.Chand& Company Ltd. New Delhi, 22nd
edition 2005.
12. Essentials of Physical Chemistry by Bahl B. S. and Tuli G. D., S.Chand& Company Ltd.
New Delhi. .
SYLLABUS
Course Title PHYSICS-IV
Course Code BPH 401
Course Credit
Lecture : 04
Tutorial : 00
Practical : 03
Total : 07
Detailed Syllabus:
Sr.
No Name of chapter & Details
Session
Allotted
SECTION-I
1
Diffraction:
Introduction, Two types of Diffraction, Fresnels’s Explanation of the
Rectilinear propagation of light(up to equation, Zone Plate, Action of Zone
Plate, Comparison between Zone plate & convex lens, Fraunhoffer diffraction at
Double Slit (Geometry Method), Plane diffraction grating, Theory of grating,
Determination of wavelength, Prism & Grating Spectra.
8
2
Lasers:
Interaction of Radiation with matter(Spontaneous and stimulated
emission), Einstein’s Relations, Light amplification & conditions, Population
Inversion, Pumping, Metastable states, The principle pumping schemes, Optical
Resonance, Types of Lasers Nd:YAG Laser, CO2 Laser, Ruby Laser, He-Ne
Laser, Semiconductor Laser, Applications
7
3
Fiber Optics:
Optical Fibers, Critical angle of Propagation, Modes of propagation, Acceptance
angle, Fractional refractive index change, Numerical Aperture, Types of Optical
Fibers, Applications, Military Applications, Optical fiber Sensors, Medical
Applications, Fiber optic communication, Advantage.
7
4
Oscillators:
Sinusoidal oscillators, Positive feedback, Barkhausen Criterion,
Different types of transistor oscillators, Colpitt’s Oscillator,
Hartley Oscillator, Phase Shift Oscillator, Wein Bridge Oscillator.
6
SECTION-II
5
Modulation and Demodulation:
Radio broadcasting, transmission & reception, Modulation, Types of
Modulation, Amplitude Modulation, Transistor AM Modulator, Limitations of
Amplitude Modulation, Frequency Modulation, Demodulation, Essentials of
demodulation, AM diode detector, Types of AM radio receivers.
8
6
Solid State Devices:
Types of Field Effect Transistors, Junction Field Effect Transistors, Working
principle of JFET, Symbol, Importance of JFET, Difference between JFET &
Bipolar Transistor, Output Characteristics of JFET, Advantages of JFET,
Parameters of JFET(only definition), MOSFET, Unijunction Transistor,
Equivalent circuit of UJT, Characteristics of UJT, Advantages & Applications of
UJT, Thermistor
8
7
Digital Electronics:
Analog and Digital Signal, Binary number system, Logic gates, OR gate AND
gate, NOT gate, Combination of basic logic gates, NAND gate as universal gate,
Encoders and Decoders, Advantages and disadvantages of Digital electronics,
Boolean algebra, Boolean theorems, De Morgan’s Theorems.
7
8
Optoelectronic Devices:
Photo Transistor, LCD, Solar cell, Light Dependent Resistor, Light operated
Relay, (a)Flame failure Relay, (b)Smoke Detector, (c)Twilight
Switch, (d)Temperature Control Circuit
5
List of Practical (6 Hour/Week)
1. Determine the modulus of rigidity by Maxwell’s needle.
2. Determine the modulus of rigidity by Statistical method.
3. Find the focal length & Refractive index of Convex lens by Optical lever.
4. Determination of I using mercury light by Diffraction gratings.
5. Resolving power of prism.
6. Resolving power of telescope.
7. Energy band gap of thermistor.
8. Study of Characteristics of Solar Cell.
9. Characteristics of Field Effect Transistor. Determination of m,Rd,Gm.
10. Characteristics of Uni Junction Transistor.
11. Verification of truth table of AND, OR, NOT, NAND & NOR gate.
12. NAND gate as Universal gate.
13. Study of Zener Diode as voltage regulating characteristics.
14. Study of Characteristics of Photo Transistor.
15. FET as Voltmeter.
16. e/m by Thomson’s method.
Instructional Method and Pedagogy:
Lectures will be conducted with the aid of multi-media projector, black board, OHP etc.
Assignments based on course content will be given to the students at the end of each unit/topic
and will be evaluated at regular interval.
Surprise tests/Quizzes/Tutorials will be conducted.
The course includes a laboratory, where students have an opportunity to build an appreciation
for the concepts being taught in lectures.
Approximately ten experiments shall be there in the laboratory related to course contents.
Students Learning Outcomes:
At the end of the course the students will be able to:
Understand basic concepts of diffraction, stimulated emission, optical communication,
oscillator, modulation-demodulation, JFET, UJT, Thermistor and optoelectronic devices.
Apply the concept of diffraction, optical sensors, logic gates, solar cell and relay circuit.
Perform the practical of rigidity, diffraction, solar cell, FET, UJT, logic gates and photo
transistor.
Conclude the results of logic gates.
Compare the results of different sensing devices.
Reference Books:
1. A Text Book of Optics N.Subrahmanyan, BrijLal&M.N.Avadhanulu, S.Chand& Co.
2. Engineering Physics by R.K.Gaur, S.L.Gupta, DhanpatRai Publications.
3. Principles of Electronics by V.K.Mehta&Rohit Mehta., S.Chand Company.
4. Modern Physics by R.Murugeshan&KiruthigaSivaprasath, S.Chand Comp.
5. Waves and Oscillations by BrijLal and Subrahmaniam. S.Chand comp.
SYLLABUS
Course Title Mathematics - IV
Course Code BMT 411
Course Credit
Lecture : 4
Practical : 3
Tutorial : 0
Total : 7
Detailed Syllabus:
Sr. No. Name of chapter & Details Sessions
Allotted
SECTION-I
1
Sequence and Series:
Sequence, convergence properties of sequences, infinite series, series of
positive terms, the geometric series, the integral test and the comparison test,
D’almbert’s ratio test and Cauchy’s root test.
8
2
Higher order ODE:
Linear ODEs (generalities) complimentary function as and particular
integrals, linear dependence and independence of functions, Wronskians,
Abel-Liouville formula, use of a known solution (for reduction of order)
method of variation of parameter.
10
3
Linear ODEs With constant coefficient and the Cauchy Euler equation:
The characteristic polynomial and indicial polynomial, discussion of the case
of complex roots and repeated roots, extracting the real form of the solution
via Euler’s formula eiθ = cosθ + isinθ,method of undetermined coefficient
for finding the particular integral for special right hand sides. (Forcing
functions) both for constant coefficient ODEs as well as Cauchy Euler ODEs.
10
SECTION-II
4
Descriptive statistics:
Measures of Central Tendency: Mean, Median and Mode, quartiles, deciles
and percentiles (both for raw data and grouped data)
Measures of Dispersion: Range, Interquartile Range, Variance, Standard
Deviation and Coefficient of Variation.
8
5
Correlation and Regression:
Introduction, types of correlation – positive or negative, simple, multiple or
partial. Coefficient of correlation, methods of studying correlation – scatter
diagram method, Karl Pearson’s product moment method, Spearman’s rank
8
correlation method. Regression, lines of regression, methods of finding
regression lines - scatter diagram method, method of least squares. Examples
of all methods for correlation and regression.
6
Statistical hypothesis:
Null and Alternative hypothesis, Simple and Composite hypothesis
Statistical Tests: Acceptance region and Rejection Region. Types of errors.
Significance Tests Distribution: Chi-square test, F-test and t-test.
8
7
ANOVA:
One way ANOVA
Two way ANOVA 4
Laboratory course:
1. Check the convergence of the series by geometric series and Integral test.
2. Check the convergence of the series by comparison test, D’almbert’s ratio & Cauchy’s root
test.
3. Find complementary function, particular integrals, Wronskians, of the ODEs.
4. Find solution of ODE by method of variation of parameter.
5. Find the roots of Linear ODEs and find Euler’s formulaeiθ = cosθ + isinθ.
6. Find solution of ODE by method of undetermined coefficient,
7. Find mean, median, mode, quartiles, deciles and percentiles.
8. Find standard deviation and coefficient of variation.
9. Apply statistical Tests (t & F tests) for one samples.
10. Apply statistical Tests (chi-square test) for one samples.
11. Find one way ANOVA.
12. Find two way ANOVA.
Students Outcomes:
At the end of the course the students will be able to:
Understand different concept of Higher order ODEs & their solution and able to relate them
with real life problems.
Choose proper statistical methods & statistical tests for particular & specific problem.
Analyze problems or situations by statistical methods & statistical tests.
Instructional Method and Pedagogy:
Lectures will be conducted with the aid of multi-media projector, black board, Audio/Video
clips etc. relevant to the content.
Assignments based on course content will be given to the students at the end of each
unit/topic and will be evaluated at regular interval.
Surprise tests/Quizzes/Tutorials will be conducted.
The course includes a laboratory, where students have an opportunity to build an
appreciation for the concepts being taught in lectures.
Minimum ten practical’s shall be there in the tutorial related to course contents.
Reference books:
1. Advanced Engineering Mathematics by E. Kreyszig, John Wiley, 1999.
2. Calculus by T. M. Apostol, Wiley Eastern, Volume-2, 1980.
3. Basic Biostatistics for Pharmacy by Prin. G. C. Patel and Dr. G. K. Jani, Atul Prakashan, 2nd
Edition.
4. Biostatistics by P. Ramakrishnan, Saras Publication.
5. Advanced Engineering Mathematics by Dr. K. R. Kachot, Mahajan Publishing House, 7th
Edition.
SYLLABUS
Course Title BASICS OF COMPUTER APPLICATIONS
Course Code CE451
Course Credit
Lecture : 03
Tutorial : 00
Practical : 00
Total : 03
Detailed Syllabus:
Sr.
No Name of chapter & Details
Session
Allotted
SECTION-I
1
Computer Fundamentals:
Introduction to Computers, Applications, History, Computer Organization, Input
and Output Devices, Storage Devices, Classification of Computers, Hardware &
Software
22
2
Introduction to Operating System, Windows & its Utilities
Introduction to Operating System- Functions of Operating Systems and their
characteristics; DOS: Introduction, Basic DOS commands; Windows:
Introduction to Windows, Features of Windows, Types & Versions, Overview of
File System, Basic operations with File System: Working with Control Panel
Creation of Users, Installation/Un-Installation of Applications, Drivers.
3
Working with Office
Document Writer: Creating, Editing & Navigating, Formatting, Working with
Table, Mail Merge, Macros; Spreadsheet: Working with Sheets, Formatting
Sheets, Data Filters, Formulas, Graphs & Charts, Analyzing Data, Macros.
Presentation: Creating Presentation, Designing, Editing, Animation, Inserting
Sounds, Movies and Charts, Usage of Hyperlinks.
4
Networking and Internet
Computer Network, Networking Devices & Technologies, Introduction to
Internet, Web Surfing, Overview of Browsers,Email Providers, Creating &
Working with Emails, Email Groups, Video Conferences.
SECTION-II
5 Google Apps – I
Moving from Office to Google Drive: Google docs:Creating Document, Upload,
Edit Document, Sharing, Limitation of Google Docs, Google sheets:Creating
Sheets, Upload, Edit Sheets, Sharing, Limitation of Google Sheets, Google
slide:Creating Slide, Upload, Edit Slide, Sharing, Limitation of Google Slide. 23
6 Google Apps - II
Google Calendar: Creating and Viewing Events, Inviting others, Notifications
Google Forms: Usage of Various Components, Designing & Sharing
Google Sites: Introduction to Templates, Creating/Editing Pages, Publishing
Sites
7 Google Apps - III
Google Classrooms: Capturing your Classroom’s, Communicating with students
Google Maps, Exploration of Google Earth, Usage of Google Groups to Promote
Online Discussion.
8 Applications & Online Tools
Working with pdf, Conversion from pdf into various formats, Basics of Origin -
Graphing, Exploration of Data, Analysis of Data, E-Books, Online Videos,
Edmodo, Canvas.
Instructional Method and Pedagogy:
1. Lectures will be conducted on the basis of Classroom Response Systems with the use of
multimedia projector and black board.
2. Assignments based on course contents will be given at the end of each unit/topic and will be
evaluated at regular interval.
3. Experiments will be based on the practical curriculum and will be evaluated at regular
interval
Students Learning Outcomes:
On the completion of the course, students will be able to :
Explore the fundamental of computer, hardware, software.
Demonstrate proficiency in the use of email.
Compose various documentation skills of open office and Google collaboration tools in daily
routine work.
Adaptdata management and manipulation skills in daily routine work.
Text book:
1. Title : Microsoft Office 2007 Bible, Wiley India New Delhi Author(s): Walkenbach John
Tyson Herb WempenFaithe Prague Cary, N. Groh Michael, R. Aitken Peter, G. Bucki Lisa.
2. Title : The Internet, Prentice Hall of India Publication Author(s) : Douglas E. Comer.
Reference Books:
1. Title : Learn Microsoft Office 97, BPB Publications New Delhi Author(s): Russell Stuart.
2. Title : Google Drive & Docs in 30 Minutes (2nd Edition): The unofficial guide to the new
Google Drive, Docs, Sheets & Slides by IAN lAMONT
Additional Resources:
1. www.originlab.com
2. www.officetutorials.com
3. https://gsuite.google.com/learning-center
4. http://www.basicknowledge101.com/subjects/internet.html
SYLLABUS
Course Title BASICS OF BUSINESS MANAGEMENT
Course Code BBC108
Course Credit
Lecture : 03
Tutorial : 00
Practical : 00
Total : 03
Detailed Syllabus:
Sr.
No Name of chapter & Details
Session
Allotted
SECTION-I
1
Introduction to Management and Business Organization:
What is Management? Why management is Important for any Business? Levels
of Management in the organization, Skills Required to be a Good Manager, Roles
of Manager, Modern principles of Management, Coordination-The essence of
Managing, Basic Functions of Management. Forms of Business Organization:
Sole Proprietorship form, Partnership form of Business Organization, Joint Hindu
Family form of Business Organization, Cooperative Society.
22
2
Planning and Decision Making:
What is Planning? Importance of Planning, Elements of sound Plan, How to do
planning? Role of Decision Making, Types of Decisions, How to make the
decisions?
3
Organizing:
Organization as a Structure, Forms of Organization Structure, Organization as a
Process :Authority and Responsibility, Delegation – Centralization and
Decentralization
SECTION-II
4
Managing Human Resources:
Recruitment and selection, Training and Development, Performance appraisal
and its importance, Motivation and its importance, Techniques to Motivate
Employees.
23 5
Leadership and Managing Team
Importance of Leadership, Leadership Styles and its Suitability, Leadership Vs.
Management, Team Building, Levels of Conflicts and its effects, Ways to
manage Conflicts, Channels and media of Communication in the organization.
6
Functional Areas (Scope) of Management:
Marketing Management – Functions, Scope, Importance; Financial Management-
Functions, Scope, Importance; Production and Operation Management-
Functions, Scope, Importance.
Instructional Method and Pedagogy:
Lectures will be conducted with the aid of multi-media projector, black board, OHP etc.
Assignments based on course content will be given to the students at the end of each
unit/topic and will be evaluated at regular interval.
Surprise tests/Quizzes/Tutorials will be conducted. Assignments based on course content will
be given to the students at the end of each unit/topic and will be evaluated at regular interval.
Surprise tests/Quizzes/Tutorials will be conducted.
Students Learning Outcomes:
After Successful completion of the above course, students will be able to:
Understand the fundamental concepts of Business management, basic roles of
manager and managerial functions in organization.
Relate, discuss, and present management practices, managerial roles, and
procedures.
Recognize the management practices and its importance in today’s Business world
Text book:
1. Management: Theory and Practice by C.B.Gupta, by Sultanchand&Sons
2. Management: A Global and Entrepreneurial Perspective by Weihrich Heinz, Koonz, Harold ,
Tata McGraw-Hill